DE618645C - Bridging circuit - Google Patents

Description

Arrangements are already known which aim at the known feedback circuits to prevent the existing maladministration, namely the vibrations that are swayed during the fanning period are not attenuated quickly enough during the attenuation period. The grievance will eliminated by arranging two tubes connected in push-pull, their anode circuits are coupled to the common grid circle, namely fed back to the one tube, with the other counter-coupled.

The present invention is a development of this idea and is primarily intended to Simplify and improve overfeed receivers.

The signal energy is fed differentially to the common input of the two tubes and the relatively low-frequency pendulum voltage is applied to one tube (D) either for the greater part (FIG. 1) or exclusively (FIG. 3).

Another feature of the invention is a means by which the Resistance of the RF input circuit of a tube is changed so that the negative Resistance of this tube practically over half a period of a relatively low frequency Pendulum voltage is kept constant while its average wait over the other half period is large and is positive.

In the drawing, FIGS. 1 and 3 show two circuit diagrams, while FIG. 2 shows a curve of the Represents damping resistance.

In Fig. Ι the source Fi low-frequency interruption current of about 5000 Hz is differentially coupled to the tubes R and D connected in push-pull. These tubes can have 3, 4, 5 and more electrodes.

The circuit receiving the signal contains the two coils L ₁ and L ₂ and the variable capacitor C. One terminal of each coil is connected to a grid and the other to a fixed capacitance 3 which has a value such that its reactance at .Signalfrequency is small compared to that of C. Shunted to 3 is a potentiometer resistor 21 connected in parallel to the source Fi. 6 is the grid battery, the negative terminal of which is connected at 20 to the slide 20 of the potentiometer 21 and the positive terminal of which is connected to earth. B is the anode battery, the negative terminal of which is connected to the common cathode line and the positive terminal of which is connected to a coil 8 via the telephone 9. This is with the coils L ₁

618 β45

and L ₂ coupled so that a feedback or negative feedback arises. Parallel to B and 9 is a capacitor 10 of about 0.006 μ!?, An antenna is practically not necessary; for long waves all that is needed is a larger capacitance in parallel with the resistor 21 and a correspondingly lower interruption frequency of the source Fi.

In the above-mentioned, previously proposed circuits, both the signal energy and the low-frequency oscillation voltage are fed differentially to the push-pull tubes 1 and 2, the common output of which is coupled to the signal input circuit. In the present invention, however, only the signal × ¹ frequency is fed to both push-pull tubes, while the peadel frequency is preferably (FIG. 1) or exclusively (FIG. 3) the tube D is impressed.

In the following, the operation of the circuit will be explained, specifically for the case that the pendulum voltage is fed exclusively to the one tube D , that is, for. 25 the case of FIG. 3 or the case that in Fig. Ι the slide of the Pbtentiometerharzes 21 is in its uppermost position. If the Pendelspanßüng is directed so that it is added to the grid bias battery 6, the tube D is ineffective because of the greater negative grid bias then prevailing. In this half cycle, the circuit C L ₁ L ₂ is undamped evenly and independently of the pendulum frequency by the feedback between the coils 8 and L _1. If the pendulum voltage is directed in the opposite direction, the tube D acts because of the negative feedback between the .Spulen 8 and L ₂ like a large positive resistance that attenuates the oscillating circuit C L ₁ L ₂ so strongly that the through the tube R and the feedback between the sinks 8 and L ₁ caused vibrations to subside quickly. The position of the slide 20 of the potentiometer 21 must always be chosen so that the tube R represents a negative resistance despite a Pehdel voltage which is added to the grid voltage.

To the positive resistance ^{going into the circle G 1} L ₁ L ₂ during the pendulum intervals

is felegt to increase, it can!, JD eyelets such that it gives a larger gain than the tube R, or it may be the coupling of the anode circuit of D to the input circuit through the intervention of a specific feedback coil JS be made larger than that of R, or any other means by which D is more tightly coupled to the tuned circuit than R.

FIG. 3 shows an equivalent control method for changing the potential of the cathode of D with respect to the potential of the grid. In this case, the RF bridging capacitor 3 of FIG. 1 is superfluous and a similar capacitor is required between the cathode and earth of the tube D for this purpose. It is also possible to feed the interruption voltage to the anode circuit of D , but this requires considerably larger interruption voltages and greater powers from the pendulum frequency source.

The curve according to FIG. 2 shows the resistance as the ordinates. of the signal circle CL ₁ L ₂ and the time as the abscissa. It can be seen from this curve that the negative resistance is practically constant over a half cycle of the interruption frequency Fi , while an imbalance in favor of the tube D occurs with the reverse feedback effect. An expohential increase in signals is thus also obtained, since it is known that when a constant (negative or positive) resistance is present, the amplitudes of the oscillations in a coordinated circuit change exponentially with time. It is also known that for small periods of time the exponentiate change is essentially linear, so that the average value of the oscillating current in the tuned circuit is proportional to the value of the amplitude of the signal waves at all times.

The main feature of the present invention is therefore that during the recirculation period, d. H. the negative resistance, constant remains because the steaming effect of the other tube is completely eliminated while during the decay period the dampening effect, d. H. the positive resistance as great as necessary can be made.

Claims (6)

Patent claims: i: Overfeedback circuit with two tubes connected in reverse, the anode circuits of which are coupled to the common grid circuit, with one tube fed back, with the other counter-coupled, characterized in that means are provided to either reduce the pendulum frequency voltage to its largest part ( Fig. Ϊ) or exclusively (Fig. 3) to supply one tube (D). 2. A circuit according to claim 1, characterized in that a potentiometer (21) is arranged in parallel with the Pendelfrequenzspaiinicngsquelte (Fi) , the slide (20) of which with the grid bias battery. connected to the cathode point. 3. A circuit according to claim i, characterized in that the pendulum frequency voltage source (Fi) is in series with a bias battery between the cathode and earth of one of the two tubes connected in push-pull. 4. A circuit according to claim 1, characterized in that special means are provided to increase the damping effect of a tube (D) on the oscillating circuit (C L ₁ L ₂ ) . 5. A circuit according to claim 4, characterized in that an additional counter-coupling coil (E) is arranged in the anode circuit of one tube (D). 6. A circuit according to claim 4, characterized in that a tube (D) with a greater gain than the other is selected. 1 sheet of drawings